Issue 44, 2024

Molecular Fe(ii)–Ln(iii) dyads for luminescence reading of spin-state equilibria at the molecular level

Abstract

Due to the primogenic effect, the valence shells of divalent iron Fe(II) ([Ar]3d6) and trivalent lanthanides Ln(III) ([Xe]4fn) are compact enough to induce spin-state equilibrium for the 3d-block metal and atom-like luminescence for the 4f-block partner in Fe(II)–Ln(III) dyads. In the specific case of homoleptic pseudo-octahedral [Fe(II)N6] units, programming spin crossover (SCO) around room temperature at normal pressure requires the design of unsymmetrical didentate five-membered ring chelating NN′ ligands, in which a five-membered (benz)imidazole heterocycle (N) is connected to a six-membered pyrimidine heterocycle (N′). Benefiting from the trans influence, the facial isomer fac-[Fe(II)(NN′)3]2+ is suitable for inducing SCO properties at room temperature in solution. Its connection to luminescent [LnN6O3] chromophores working as non-covalent podates in the triple-stranded [Fe(II)Ln(L10)3]5+ helicates (Ln = Nd, Eu) controls the facial arrangement around Fe(II). The iron-based SCO behaviour of the 3d–4f complex mirrors that programmed in the mononuclear scaffold. Because of the different electronic structures of high-spin and low-spin [Fe(II)N6] units, their associated absorption spectra are different and modulate the luminescence of the appended lanthanide luminophore via intramolecular intermetallic energy transfers. It thus becomes possible to detect the spin state of the Fe(II) center, encoded by an external perturbation (i.e. writing), by lanthanide light emission (i.e. reading) in a single molecule and without disturbance. Shifting from visible emission (Ln = Eu) to the near-infrared domain (Ln = Nd) further transforms a wavy emitted signal intensity into a linear one, a protocol highly desirable for future applications in data storage and thermometry.

Graphical abstract: Molecular Fe(ii)–Ln(iii) dyads for luminescence reading of spin-state equilibria at the molecular level

Article information

Article type
Frontier
Submitted
28 Jun 2024
Accepted
13 Sep 2024
First published
18 Sep 2024
This article is Open Access
Creative Commons BY license

Dalton Trans., 2024,53, 17756-17765

Molecular Fe(II)–Ln(III) dyads for luminescence reading of spin-state equilibria at the molecular level

T. Lathion, N. Deorukhkar, C. Egger, H. Nozary and C. Piguet, Dalton Trans., 2024, 53, 17756 DOI: 10.1039/D4DT01868K

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